JP2008160627A - Electronic equipment, and semiconductor device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption of electronic equipment at a standby state of waiting for a signal from a remote controller. <P>SOLUTION: A photodiode 22 receives the signal from the remote controller 10 to generate current based on the signal. A micro controller control chip 23 recognizes a header part of the signal by a decoding circuit based on the current generated by the photodiode 22 to output a starting signal for starting a micro controller 24 whose power is interrupted. The micro controller 24 starts from a power interrupted state based on the starting signal. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an electronic device that receives a signal from a remote controller and a semiconductor device mounted on the electronic device.

  Currently, electronic devices such as television devices and audio devices usually come with a remote controller that can remotely control the electronic devices. FIG. 2 is a diagram showing an outline of a conventional electronic device.

  The electronic device 40 that receives a signal from the remote controller 30 includes a microcontroller 43 that controls the apparatus.

  When the electronic device 40 in a standby state waiting for a signal from the remote controller 30 and in which the microcontroller 43 is in the low power consumption mode receives the signal from the remote controller 30, the microcontroller 43 decodes the signal. Then, the microcontroller 43 changes from the low power consumption mode to the normal activation mode, and the electronic device 40 is not in the standby state and enters the normal activation state.

  If it does in this way, the power consumption of the electronic device 40 in a standby state will become low.

In order to reduce the power consumption of electronic devices, a technique has been proposed in which a circuit block that operates with low power consumption is prepared separately from a microcontroller (for example, see Patent Document 1). In this proposal, this circuit counts the time, and when a predetermined time elapses, the microcontroller starts up from a state where the power is cut off.
JP 2003/084871 A

  However, in the conventional technique, the microcontroller 43 decodes a signal that is not known when it is received, and therefore always waits while consuming power so that the signal can be received at any time. Accordingly, since the microcontroller 43 is not completely shut off, the electronic device 40 consumes power accordingly.

  The present invention has been made in view of the above problems, and provides an electronic device with lower power consumption in a standby state waiting for a signal from a remote controller.

  In order to solve the above problems, the present invention provides an electronic device that receives a signal from a remote controller, a current generating element that receives the signal from the remote controller and generates a current based on the signal, and the current generating element A microcontroller control chip that recognizes a part of the signal based on the current generated by the decoding processing circuit and outputs a start signal for starting the power-off microcontroller, and the power is cut off based on the start signal There is provided an electronic device comprising the microcontroller that is activated from a state in which the electronic device is activated.

  Further, the present invention relates to a current generated by a current generating element that receives the signal from the remote controller and generates a current based on the signal in a semiconductor device mounted on an electronic device that receives the signal from a remote controller. And a signal recognition means for recognizing a part of the signal by a decoding processing circuit, and an activation signal output means for outputting an activation signal for activating the microcontroller that has been powered off after being recognized. A semiconductor device is provided.

  In the present invention, when the electronic device receives a signal from the remote controller, the microcontroller starts up from a power-off state. Therefore, when the electronic device is in a standby state and does not receive a signal from the remote controller, the microcontroller Is powered off. Therefore, the power consumption of the electronic device in the standby state is reduced.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  First, the configuration of the electronic device will be described. FIG. 1 illustrates an electronic device.

  The remote controller 10 includes a light emitting diode 11 and can wirelessly communicate with an electronic device 20 such as a television device or an audio device. The electronic device 20 includes a photodiode 22 for wirelessly communicating with the remote controller 10 using the light emitting diode 11, a microcontroller 24 that controls the device, and a microcontroller control chip 23 that controls the microcontroller 24. The microcontroller 24 is connected to the photodiode 22 via the microcontroller control chip 23, and further directly connected to the photodiode 22. Each of the microcontroller control chip 23 and the microcontroller 24 includes a decoding processing circuit (not shown) that recognizes a signal from the remote controller 10.

  Here, based on the current generated by the photodiode 22, the microcontroller control chip 23 is a decoding processing circuit (signal recognition means) for recognizing a part of the signal from the remote controller 10, and the power is cut off after the recognition. An activation signal output means (not shown) for outputting an activation signal for activating the microcontroller 24 is provided.

  Next, an operation when the electronic device 20 is activated from a state where the remote controller 10 is remotely operated to turn off the power will be described.

  It is assumed that the electronic device 20 in the standby state is waiting for a signal from the remote controller 10 and the microcontroller 24 is powered off. Thereafter, the electronic device 20 receives a signal from the light emitting diode 11 of the remote controller 10, and the photodiode 22 generates a current based on the signal. When the microcontroller control chip 23 recognizes the header portion of the signal by the decode processing circuit based on the current, the microcontroller control chip 23 outputs an activation signal for activating the microcontroller 24 that has been powered off. For example, by operating a chip whose start signal supplies power to the microcontroller 24, the microcontroller 24 is started from a state where the power is cut off, and the electronic device 20 is not in a standby state and enters a normal start state. When the activated microcontroller 20 decodes a portion other than the header portion in the signal from the remote controller 10 by the decode processing circuit, the electronic device 20 completely decodes the signal from the remote controller 10.

  In this way, when the electronic device 20 receives a signal from the remote controller 10, the microcontroller 20 starts up from a power-off state, so the electronic device 20 is in a standby state and receives a signal from the remote controller 10. When not, the microcontroller 20 is powered off. Therefore, the power consumption of the electronic device 20 in the standby state is reduced.

  Further, the decoding processing circuit of the microcontroller control chip 23 recognizes only the header portion of the signal from the remote controller 10 without completely decoding the signal from the remote controller 10, so that the circuit becomes a simple circuit. Therefore, the circuit scale of the microcontroller control chip 23 is reduced, and the microcontroller control chip 23 can operate with low power consumption.

  Since the microcontroller control chip 23 includes a real clock time circuit (not shown) that supplies a clock signal in real time, it is always in operation.

  The microcontroller control chip 23 recognizes the header portion in the signal from the remote controller 10, but may recognize other predetermined portions.

  Moreover, although the electronic device 20 is mounted with the photodiode 22, a phototransistor that converts light energy into electrical energy may be mounted.

It is a figure which shows the outline of an electronic device. It is a figure which shows the outline of the conventional electronic device.

Explanation of symbols

10 Remote Controller 11 Light Emitting Diode 20 Electronic Device 22 Photodiode 23 Microcontroller Control Chip 24 Microcontroller

Claims (4)

In an electronic device that receives a signal from a remote controller,
A current generating element that receives the signal from the remote controller and generates a current based on the signal;
A microcontroller control chip for recognizing a part of the signal based on the current generated by the current generating element by a decoding processing circuit and outputting a start signal for starting the power-off microcontroller;
The microcontroller starting from a power-off state based on the activation signal;
An electronic device comprising:   2. The electronic apparatus according to claim 1, wherein the microcontroller control chip recognizes a header portion of the signal by the decode processing circuit.   The electronic device according to claim 1, wherein the current generating element is a photodiode or a phototransistor. In a semiconductor device mounted on an electronic device that receives a signal from a remote controller,
A signal recognizing means for recognizing a part of the signal by a decoding processing circuit based on a current generated by a current generating element that receives the signal from the remote controller and generates a current based on the signal;
An activation signal output means for outputting an activation signal for activating the microcontroller that has been powered off after recognizing;
A semiconductor device comprising:

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